quantum information

Applications are invited for two postdoctoral positions to work with Dr Gerardo Adesso on an ERC Starting Grant project entitled “Genuine quantumness in cooperative phenomena” funded by the European Research Council. The principal goal of the project is to analyse and challenge the quantum-classical border from a jointly fundamental and applicative viewpoint. The project is expected to deliver novel tools for the characterisation of quantumness in composite systems and to develop novel platforms for its practical utilisation in quantum technology applications.

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3 Research Fellows (PhD candidates) in Informatics / Computer Science
Department of Informatics, University of Bergen, Norway

Closing date for applications: 1st June 2015

These positions are advertised across specialisations, and include the following possible research topics:

The aim of the workshop is to discuss current theoretical developments on quantum non-equilibrium dynamics at the interface of statistical mechanics, condensed matter, cold atoms, quantum information, metrology and control.

1 postdoc and 3 PhD student positions are available in this project. We offer good salaries and possibility to work on a wide range of topics. To apply send your CV and a short description of scientific interests to [email protected] Any inquires should be directed to the same address.

Project scope:

Study of quantum information processing in the case when communication and memory are limited to just a few qubits. We are interested in doing this mainly in the context of the three following fileds:

In the theory group of Prof. Uwe R. Fischer at Seoul National University, there is an opening for a Postdoc position for one year, with a possible extension by another year. Possible research topics are novel quantum phases in optical lattices, dipolar gases with strong correlations, the many-body physics of fragmented condensates, dynamical quantum phase transitions, the Kibble-Zurek mechanism of topological defect creation, and quantum state transfer in hybrid quantum systems.

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